Electronic Design Automation Market By Type (Computer-aided Engineering (CAE), IC Physical Design and Verification), Deployment (Cloud, On-Premise), Application (Communication, Consumer Electronics), & Region for 2024-2031

Published Date: August - 2024 | Publisher: MIR | No of Pages: 320 | Industry: latest updates trending Report | Format: Report available in PDF / Excel Format

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Electronic Design Automation Market By Type (Computer-aided Engineering (CAE), IC Physical Design and Verification), Deployment (Cloud, On-Premise), Application (Communication, Consumer Electronics), & Region for 2024-2031

Electronic Design Automation Market Valuation – 2024-2031

The increasing complexity of electronic devices necessitates robust EDA tools for designing integrated circuits and PCBs efficiently is propelling the adoption of Electronic Design Automation. The surge in demand for Internet of Things (IoT) and Artificial Intelligence (AI) technologies is driving the market size to surpass USD 14.79 Billion in 2024 to reach a valuation of around USD 28.64 Billion by 2031.

In addition to this, the growing emphasis on simulation and verification to ensure reliability and performance is spurring up the adoption of Electronic Design Automation. The rollout and adoption of 5G technology require EDA software capable of designing high-frequency and low-latency components for telecommunications infrastructure enabling the market to grow at a CAGR of 9.5% from 2024 to 2031.

Electronic Design Automation MarketDefinition/ Overview

Electronic Design Automation refers to a category of tools for designing and producing electronic systems, such as integrated circuits (ICs), printed circuit boards (PCBs), and other complex electronics. These tools help engineers to design, simulate, verify, and manufacture electronic systems. EDA software typically includes a range of functionalities, from schematic capture and circuit simulation to physical layout and verification.

EDA software is crucial in various stages of electronic system development. It is extensively used in IC design, where it aids in creating and testing digital and analog circuits before fabrication. In PCB design, EDA tools help with the layout and physical design, ensuring electrical and mechanical constraints are met. Additionally, EDA tools support FPGA development, power analysis, and electromagnetic analysis, ensuring that designs are optimized for performance and reliability.

The future of EDA software is expected to see significant advancements with the integration of AI and machine learning, enhancing design automation and optimization. As semiconductor technology evolves, cloud-based solutions and collaborative design environments will provide scalable and efficient design processes.

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How will Rising Adoption of FinFET Architecture in Designing Modern Processors Increase Adoption of Electronic Design Automation?

The rising adoption of FinFET architecture in designing modern processors is a major driver for the Electronic Design Automation Market. FinFET technology, known for its superior performance and energy efficiency, demands advanced EDA tools capable of handling its complex design requirements. This shift towards FinFET is essential for meeting the performance and power efficiency needs of modern electronics, thereby boosting the demand for sophisticated EDA solutions.

Another significant driver is the rise in adoption of System-on-Chip (SoC) technology, which integrates multiple functions into a single chip. SoCs are crucial for compact, efficient, and high-performance electronic devices. The complexity of SoC design requires advanced EDA tools for effective integration, simulation, and verification of various components, driving the growth of the EDA software market as industries increasingly rely on SoC technology.

The surge in penetration of IoT, AI, and VR technologies is also propelling the EDA software market forward. These technologies require highly specialized and efficient electronic designs to function optimally. EDA tools facilitate the design and development of these advanced electronics, ensuring they meet the specific demands of IoT, AI, and VR applications. This trend is expected to continue, driving further growth in the EDA software market.

The rising demand for advanced electronic components is driving growth in the electronic design automation software industry, with companies integrating advanced technologies into their EDA tools to enhance brand identity and operational efficiency in electronic devices. For instance, in March 2023, Synopsys has introduced Synopsis.ai, an AI-driven EDA suite for chip manufacturers, which helps reduce production costs, enhance engineering productivity, and support market growth in the EDA software industry.

Will Presence of Open-Source EDA Tools of Electronic Design Automation Restrain Its Market Growth?

One major restraint for the global Electronic Design Automation Market is the presence of open-source EDA tools. These free alternatives, such as V2000, Voyeur, Vaul, Simsynch, Thud, and Veripool, provide cost-effective solutions that can undercut commercial EDA software. The availability of these tools, often not licensed under restrictive terms, poses a significant challenge to the market growth of proprietary EDA software.

The shortage of skilled labor is another significant barrier to the expansion of the EDA software market. The complexity of EDA tools requires specialized knowledge and expertise, which is in short supply. This skills gap hampers the ability of companies to fully leverage EDA software, slowing adoption rates and limiting market growth. Additionally, economic uncertainties and rapid technological advancements further complicate workforce development in this field.

High costs associated with sophisticated EDA tools also impede market growth, especially for small and medium-sized enterprises (SMEs). These tools can be prohibitively expensive, making it difficult for smaller companies to afford the necessary software to compete with larger firms. This financial barrier limits innovation and market entry for new players, thereby consolidating the market among a few dominant companies.

The lengthy sales cycle for EDA software poses an additional challenge. The complex nature of these tools means businesses must thoroughly evaluate various solutions before making a purchase, leading to drawn-out decision-making processes. This extended sales cycle can deter new businesses from entering the market and impede the growth of existing companies, further consolidating the industry as larger players continue to acquire smaller firms.

Category-Wise Acumens

Which Factors are Contributing Computer-aided Engineering (CAE) Segment Dominance in Electronic Design Automation Market?

The Computer-aided Engineering (CAE) segment is leading the Electronic Design Automation Market, driven by various factors. One key driver is the increased outsourcing of manufacturing processes to emerging economies. This shift allows companies to reduce costs while maintaining high-quality production standards, thus increasing the demand for advanced CAE tools.

Another factor contributing to the growth of the CAE segment is the growing need for integrated software solutions. These solutions help eliminate the need for multiple prototype products and reduce product recall concerns, saving time and resources. The integration of CAE tools streamlines the design and testing process, enhancing overall efficiency and reliability.

Additionally, the CAE segment is benefiting from the shift from on-premise computing to cloud-based computing. Cloud-based CAE solutions offer scalability, flexibility, and cost savings, making them attractive to companies of all sizes. This transition supports the widespread adoption of CAE tools, further solidifying the segment’s dominance in the EDA software market.

Which Factors Enhance the Use of Electronic Design Automation in Consumer Electronics?

The consumer electronics segment accounted for the largest market share in the Electronic Design Automation Market. This dominance is driven by the escalating demand for smart devices such as smartphones, wearables, and home automation systems. The need for advanced and reliable electronic designs to support these technologies has led to increased adoption of EDA tools among manufacturers.

The growing demand for smart devices encourages Integrated Circuit (IC) manufacturers to adopt EDA software to streamline design processes and improve product quality. This trend is further bolstered by the necessity to develop complex, high-performance ICs that can meet the evolving needs of consumer electronics. As a result, there is a significant push towards leveraging sophisticated EDA solutions to remain competitive in the market.

Consumer electronics OEMs are partnering with leading System-on-Chip (SoC) and IC manufacturers, including Intel Corporation, NXP Semiconductors, Texas Instruments Incorporated, and Qualcomm Technologies, Inc., to enhance their smart products. These collaborations aim to integrate cutting-edge EDA technologies to develop more efficient, powerful, and innovative devices. Such partnerships are pivotal in advancing the quality and functionality of consumer electronics, driving further growth in the EDA software market.

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Country/Region-wise Acumens

Will Early Adoption of Technologies in North America Mature Electronic Design Automation Market?

North America dominates the Electronic Design Automation Market, primarily due to the early adoption of advanced technologies like 5G, machine learning, and artificial intelligence. These technologies require sophisticated EDA tools for the design and verification of complex electronic systems. The region’s technological leadership drives substantial demand for cutting-edge EDA solutions.

The growth of several key industries, including consumer electronics and automotive, significantly contributes to the regional demand for EDA software. Companies in these sectors rely heavily on EDA tools to develop innovative products that meet high-performance standards. The continuous expansion and evolution of these industries fuel the need for advanced electronic design automation.

North America's got a serious tech scene going on, with tons of amazing companies and research centers backing up the EDA software market. This creates a breeding ground for new ideas and teamwork, so the newest EDA tools get used quickly in all sorts of cool projects. Because of this tech edge and the booming industry, North America is a super important spot for EDA software. Take, for example, back in June 2022, a US company that makes EDA solutions, teamed up with Arm Limited to make developing silicon for mobile devices even faster. They're using Cadence's digital and verification tools along with Arm Total Compute Solutions 2022. Cadence is even offering special kits for 5nm and 7nm nodes to help optimize power and boost productivity! Plus, with North America's great wireless network and support from the government, things are only expected to get better here.

Will Increasing Number of Electronic Manufacturing Companies Enhance Adoption of Electronic Design Automation in Asia Pacific?

Asia Pacific is anticipated to be the fastest-expanding region in the Electronic Design Automation Market over the forecast period. This growth is driven by the increasing number of electronic manufacturing companies in the region, particularly in countries like China, Japan, and South Korea. The rise in electronic production necessitates advanced EDA tools to streamline design processes and ensure high-quality outputs.

The developing cloud computing sector and increasing smartphone penetration further boost the demand for EDA software in Asia Pacific. Cloud-based EDA solutions offer scalability and accessibility, allowing companies to efficiently manage complex electronic design tasks from any location. This is particularly beneficial for semiconductor companies aiming to design sophisticated System-on-Chip (SoC) architectures, which are becoming more intricate and require novel deployment methodologies.

Additionally, the growing popularity of smart wearable devices in Asia Pacific contributes to the market expansion. As these devices become more complex and feature-rich, the need for advanced EDA tools to design and verify their electronic components increases. The combination of these factors, along with the region’s focus on technological advancement and innovation, positions Asia Pacific as a rapidly growing market for EDA software.

Competitive Landscape

The competitive landscape of the Electronic Design Automation Market is characterized by intense rivalry among numerous companies striving to innovate and offer advanced solutions. This competition drives continuous development and enhancement of EDA tools, focusing on improving functionality, efficiency, and integration capabilities. Market players are also increasingly adopting cloud-based solutions and leveraging AI and machine learning to stay ahead. The industry sees frequent mergers and acquisitions, which contribute to market consolidation and the expansion of product portfolios, further intensifying the competitive environment. Some of the prominent players operating in the Electronic Design Automation Market include

  • Synopsys, Inc.
  • Cadence Design Systems, Inc.
  • Mentor, a Siemens Business
  • Ansys, Inc.
  • Altium Limited
  • Keysight Technologies
  • Autodesk, Inc.
  • Zuken Inc.
  • Dassault Systèmes
  • National Instruments Corporation
  • Siemens EDA (formerly Mentor Graphics)
  • Xilinx, Inc.
  • MathWorks
  • AWR Corporation (now part of Cadence)
  • Silvaco, Inc.
  • CadSoft Computer GmbH (now part of Autodesk)
  • EMA Design Automation
  • Solido Design Automation (now part of Mentor, a Siemens Business)
  • Agilent EEsof EDA (now Keysight Technologies)
  • Synplicity, Inc. (now part of Synopsys)

Latest Developments

  • In July 2020, Siemens EDA entered into a partnership with Samsung Foundry. The collaboration focused on creating and building new reference kits to simplify and streamline embedded memory diagnostics, maintenance, and testing in systems-on-chip (SoC). Siemens EDA is expected to get access to Samsung Foundry’s large client base as a result of this agreement.
  • In June 2021, Aldec, Inc. introduced the HES-DVM Proto Cloud Edition (CE) as a new product for prototyping in the market.

Report Scope

REPORT ATTRIBUTESDETAILS
Study Period

2021-2031

Growth Rate

CAGR of ~9.5% from 2024 to 2031

Base Year for Valuation

2024

Historical Period

2021-2023

Forecast Period

2024-2031

Quantitative Units

Value in USD Billion

Report Coverage

Historical and Forecast Revenue Forecast, Historical and Forecast Volume, Growth Factors, Trends, Competitive Landscape, Key Players, Segmentation Analysis

Segments Covered
  • Deployment Mode
  • Type
  • Application
Regions Covered
  • North America
  • Europe
  • Asia Pacific
  • Latin America
  • Middle East & Africa
Key Players

Synopsys, Inc., Cadence Design Systems, Inc., Mentor, a Siemens Business, Ansys, Inc., Altium Limited, Keysight Technologies, Autodesk, Inc., Zuken Inc., Dassault Systèmes, National Instruments Corporation, Siemens EDA (formerly Mentor Graphics), Xilinx, Inc., MathWorks, AWR Corporation (now part of Cadence), Silvaco, Inc.

Customization

Report customization along with purchase available upon request

Electronic Design Automation Market, By Category

Type

  • Computer-aided Engineering (CAE)
  • IC Physical Design and Verification
  • Printed Circuit Board and Multi-chip Module (PCB and MCM)
  • Semiconductor Intellectual Property (SIP)
  • Services

Deployment Mode

  • Cloud
  • On-premise

Application

  • Communication
  • Consumer Electronics
  • Automotive
  • Industrial
  • Aerospace & Defense
  • Medical
  • Others

Region

  • North America
  • Europe
  • Asia-Pacific
  • South America
  • Middle East & Africa

Research Methodology of Market Research

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